Design of Adaptive Priority Based IoT Communication in Wireless Network

Abstract

Heterogeneous wireless networks of the future must be able to satisfy ever increasing demands while also making the best use of available resources. Relaying IoT contact has emerged as a novel promising approach for improving coverage, lowering power consumption, and reducing the possibility of outages. Enabling cooperation among nodes significantly increases throughput in a multi-hop heterogeneous wireless system to provide optimal IoT communication. In recent IoT communication developments, relay selection has a significant impact on network performance. IoT communication, particularly in surveillance-based wireless networks, has a number of advantages over traditional direct communication, and relay selection is widely regarded as a smart way to increase capacity efficiency. The observation of numerous relying approaches prompted the creation of a better way to solve the imprecise nature of wireless networks by using adaptive priority-based relay selection decisions. In this work, a multi-hop terminal scenario, IoT communication to develop an efficient method for selecting a better relay in each IoT device, as well as to investigate the various user options for relay selection parameters. The results is experiments using NS2 (Network simulator) and implementation of Throughput, Packet Delivery Ratio (PDR) and End-to-End Delay performance are tested.